We present L'-band Keck/NJRC2 imaging and H-band Subaru/A0188 HiCIA0 polarimetric observations of the CQ Tau disk with a new spiral arm. Apart from the spiral feature, our observations could not detect any companion candidates. We traced the spiral feature from the r2-scaled High-Contrast Coronographic Imager for Adaptive Optics (HiCIA0) polarimetric intensity image and the fitted result is used for forward modeling to reproduce the ADI-reduced NJRC2 image. We estimated the original surface brightness after throughput correction in the L' band to be-126 mJy arcsec-2 at most. We suggest that the grain temperature of the spiral may be heated up to-200 K in order to explain both of the H- and L'-band results. The H-band emission at the location of the spiral originates from the scattering from the disk surface while both scattering and thermal emission may contribute to the L'-band emission. If the central star is only the light source of scattered light, the spiral emission at the L' band should be thermal emission. If an inner disk also acts as the light source, the scattered light and the thermal emission may equally contribute to the L'-band spiral structure.
Taichi Uyama, Takayuki Muto, Dimitri Mawet, Valentin Christiaens, Jun Hashimoto, Tomoyuki Kudo, et al. (2020). Near-infrared Imaging of a Spiral in the CQ Tau Disk. THE ASTRONOMICAL JOURNAL, 159(3), 1-9 [10.3847/1538-3881/ab7006].
Near-infrared Imaging of a Spiral in the CQ Tau Disk
Leonardo Testi;
2020
Abstract
We present L'-band Keck/NJRC2 imaging and H-band Subaru/A0188 HiCIA0 polarimetric observations of the CQ Tau disk with a new spiral arm. Apart from the spiral feature, our observations could not detect any companion candidates. We traced the spiral feature from the r2-scaled High-Contrast Coronographic Imager for Adaptive Optics (HiCIA0) polarimetric intensity image and the fitted result is used for forward modeling to reproduce the ADI-reduced NJRC2 image. We estimated the original surface brightness after throughput correction in the L' band to be-126 mJy arcsec-2 at most. We suggest that the grain temperature of the spiral may be heated up to-200 K in order to explain both of the H- and L'-band results. The H-band emission at the location of the spiral originates from the scattering from the disk surface while both scattering and thermal emission may contribute to the L'-band emission. If the central star is only the light source of scattered light, the spiral emission at the L' band should be thermal emission. If an inner disk also acts as the light source, the scattered light and the thermal emission may equally contribute to the L'-band spiral structure.| File | Dimensione | Formato | |
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